1. notice
  3. English
  5. logic_topic
  6. 1. logic
  7. 2. basic
  8. 3. map
  9. 4. order
  10. 5. combinatorics
  12. calculus
  13. 6. real_numbers
  14. 7. limit_sequence
  15. 8. division_algebra
  16. 9. Euclidean_space
  17. 10. Minkowski_space
  18. 11. polynomial
  19. 12. analytic_Euclidean
  20. 13. analytic_struct_operation
  21. 14. ordinary_differential_equation
  22. 15. convex_hull
  23. 16. volume
  24. 17. integral
  25. 18. divergence
  26. 19. limit_net
  27. 20. topology
  28. 21. compact
  29. 22. connected
  30. 23. topology_struct_operation
  31. 24. exponential
  32. 25. angle
  34. geometry
  35. 26. manifold
  36. 27. metric
  37. 28. metric_connection
  38. 29. geodesic_derivative
  39. 30. curvature_of_metric
  40. 31. Einstein_metric
  41. 32. constant_sectional_curvature
  42. 33. simple_symmetric_space
  43. 34. principal_bundle
  44. 35. group
  45. 36. stereographic_projection
  46. 37. Hopf_bundle
  48. field_theory
  49. 38. point_particle_non_relativity
  50. 39. point_particle_relativity
  51. 40. scalar_field
  52. 41. scalar_field_current
  53. 42. scalar_field_non_relativity
  54. 43. projective_lightcone
  55. 44. spacetime_momentum_spinor_representation
  56. 45. Lorentz_group
  57. 46. spinor_field
  58. 47. spinor_field_current
  59. 48. electromagnetic_field
  60. 49. Laplacian_of_tensor_field
  61. 50. Einstein_metric
  62. 51. interaction
  63. 52. harmonic_oscillator_quantization
  64. 53. spinor_field_misc
  65. 54. reference
  67. ไธญๆ–‡
  68. 55. notice
  70. ้€ป่พ‘
  71. 56. ้€ป่พ‘
  72. 57. ๅŸบ็ก€
  73. 58. ๆ˜ ๅฐ„
  74. 59. ๅบ
  75. 60. ็ป„ๅˆ
  77. ๅพฎ็งฏๅˆ†
  78. 61. ๅฎžๆ•ฐ
  79. 62. ๆ•ฐๅˆ—ๆž้™
  80. 63. ๅฏ้™คไปฃๆ•ฐ
  81. 64. Euclidean ็ฉบ้—ด
  82. 65. Minkowski ็ฉบ้—ด
  83. 66. ๅคš้กนๅผ
  84. 67. ่งฃๆž (Euclidean)
  85. 68. ่งฃๆž struct ็š„ๆ“ไฝœ
  86. 69. ๅธธๅพฎๅˆ†ๆ–น็จ‹
  87. 70. convex_hull
  88. 71. ไฝ“็งฏ
  89. 72. ็งฏๅˆ†
  90. 73. ๆ•ฃๅบฆ
  91. 74. ็ฝ‘ๆž้™
  92. 75. ๆ‹“ๆ‰‘
  93. 76. ็ดง่‡ด
  94. 77. ่ฟž้€š
  95. 78. ๆ‹“ๆ‰‘ struct ็š„ๆ“ไฝœ
  96. 79. ๆŒ‡ๆ•ฐๅ‡ฝๆ•ฐ
  97. 80. ่ง’ๅบฆ
  99. ๅ‡ ไฝ•
  100. 81. ๆตๅฝข
  101. 82. ๅบฆ่ง„
  102. 83. ๅบฆ่ง„็š„่”็ปœ
  103. 84. Levi_Civita ๅฏผๆ•ฐ
  104. 85. ๅบฆ่ง„็š„ๆ›ฒ็Ž‡
  105. 86. Einstein ๅบฆ่ง„
  106. 87. ๅธธๆˆช้ขๆ›ฒ็Ž‡
  107. 88. simple_symmetric_space
  108. 89. ไธปไธ›
  109. 90. ็พค
  110. 91. ็ƒๆžๆŠ•ๅฝฑ
  111. 92. Hopf ไธ›
  113. ๅœบ่ฎบ
  114. 93. ้ž็›ธๅฏน่ฎบ็‚น็ฒ’ๅญ
  115. 94. ็›ธๅฏน่ฎบ็‚น็ฒ’ๅญ
  116. 95. ็บฏ้‡ๅœบ
  117. 96. ็บฏ้‡ๅœบ็š„ๅฎˆๆ’ๆต
  118. 97. ้ž็›ธๅฏน่ฎบ็บฏ้‡ๅœบ
  119. 98. ๅ…‰้”ฅๅฐ„ๅฝฑ
  120. 99. ๆ—ถ็ฉบๅŠจ้‡็š„่‡ชๆ—‹่กจ็คบ
  121. 100. Lorentz ็พค
  122. 101. ๆ—‹้‡ๅœบ
  123. 102. ๆ—‹้‡ๅœบ็š„ๅฎˆๆ’ๆต
  124. 103. ็”ต็ฃๅœบ
  125. 104. ๅผ ้‡ๅœบ็š„ Laplacian
  126. 105. Einstein ๅบฆ่ง„
  127. 106. ็›ธไบ’ไฝœ็”จ
  128. 107. ่ฐๆŒฏๅญ้‡ๅญๅŒ–
  129. 108. ๆ—‹้‡ๅœบๆ‚้กน
  130. 109. ๅ‚่€ƒ

note-math

recall the coefficient of Dirac plane wave squrae_root_of_spacetime_momentum_spinor_representation

positive definite inner product

Hermitian symmetric tensor

It doesnโ€™t look special, but if we consider the sum of the results for and , using , their sum is

Conjugate phase plane wave case

[square_root_of_harmonic_oscillator]

Inspired by the treatment of KG field quantization

We can also define the square root of a point particle complex harmonic oscillator

Dirac plane wave with and

If we ignore the plane wave, even if there is a loss of precision, we get an ODE

The solution can be written in the form of the square root of the spacetime momentum spinor representation . Using

Dirac conjugate phase plane wave with and

gives the ODE

Solution . Using

If we ignore the plane wave restriction of Dirac eq

  • Solution of the ODE given by

  • Solution of the ODE given by

Using general ODE theory, for constant coefficient linear ODEs

perform ification. Use The series rule is

The result is

Written as complex exponential

Lagrangian of the ODE

Energy

Momentum (if it makes sense)